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Predicting flavin and nicotinamide adenine dinucleotide-binding sites in proteins using the fragment transformation method.


ABSTRACT: We developed a computational method to identify NAD- and FAD-binding sites in proteins. First, we extracted from the Protein Data Bank structures of proteins that bind to at least one of these ligands. NAD-/FAD-binding residue templates were then constructed by identifying binding residues through the ligand-binding database BioLiP. The fragment transformation method was used to identify structures within query proteins that resembled the ligand-binding templates. By comparing residue types and their relative spatial positions, potential binding sites were identified and a ligand-binding potential for each residue was calculated. Setting the false positive rate at 5%, our method predicted NAD- and FAD-binding sites at true positive rates of 67.1% and 68.4%, respectively. Our method provides excellent results for identifying FAD- and NAD-binding sites in proteins, and the most important is that the requirement of conservation of residue types and local structures in the FAD- and NAD-binding sites can be verified.

SUBMITTER: Lu CH 

PROVIDER: S-EPMC4426894 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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Predicting flavin and nicotinamide adenine dinucleotide-binding sites in proteins using the fragment transformation method.

Lu Chih-Hao CH   Yu Chin-Sheng CS   Lin Yu-Feng YF   Chen Jin-Yi JY  

BioMed research international 20150427


We developed a computational method to identify NAD- and FAD-binding sites in proteins. First, we extracted from the Protein Data Bank structures of proteins that bind to at least one of these ligands. NAD-/FAD-binding residue templates were then constructed by identifying binding residues through the ligand-binding database BioLiP. The fragment transformation method was used to identify structures within query proteins that resembled the ligand-binding templates. By comparing residue types and  ...[more]

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